DE537705C - Circuit for point machines - Google Patents

Description

In patent 487185 there is a circuit for Turnout drives described in which all control and monitoring lines via a common monitoring device connected to the return pole of the monitoring battery in order to largely eliminate the influence of external currents. At this All external currents, which get into any of the lines, are managed via the communal monitoring facility.

The invention relates to a further improvement of this device which is based on the following Consideration is based:

Would when setting up according to the patent 487185 a ground fault occurs in front of the common monitoring device, so any extraneous current penetrating the lines would occur via this earth fault

to be discharged and, as a result, the monitoring device do not take action. According to the invention, this is prevented in that the common monitoring device is supplemented by

«5 the coil of a test magnet, and that the monitoring symbol appears only after The test magnet ensures that the insulation is in order, including that not in the monitoring circuit has been checked.

The subject of the invention is shown in the figures on the basis of two examples the known single-pole representation explained in more detail.

Fig. R shows the idle state of a point machine. Here, the monitoring current flows from the power source 1 via the jumping holder contact 2, the control lever contact 3, via line 4, control switch, contact 5, lines 6 and 7, monitoring magnet 8, spring switch contact. 9, via the contact to located on the monitoring device 12, a three-pole fuse 11, the monitoring device 12 and the spring switch contact I3 back to the power source. After moving the control lever and the associated switching of the control levers and switch contacts, the control current flows from the power source 14 via the contacts 2, 3, line 15, contact 16, motor winding 17, armature winding of the motor 18, line 19, switch contact 13 back to the control power source . When the

*) The patent seeker stated as the inventor:

Carl Eduard Zix in Berlin-Siemensstadt.

Motor, the control switch contact 16 is thrown, and it now flows the control current from the contact 16 via the lines 20, 7, the monitoring magnet 8, the contacts 9 and 10, fuse n, line 19, contact 13 back to the power source; the monitoring magnet 8 thus receives current, but only attracts for a short time, because it releases the spring switch, through which the contact 9 is turned over, so that the circuit just described is interrupted again. By turning the switch, the contact 21 is closed and the contact 2 has been returned to the position shown in FIG. Now a current flows from the monitoring current source 1 via 2, contact 21, contact 22 on the fallen monitoring magnet 8, setting lever contact 23, line 4, contact 5, field winding 24, armature winding 18, fuse 11, the common monitoring device 12 and the spring switch contact 13 back to the power source . 12 attracts, whereby the contact 10 is brought into the position shown, so that now the actual monitoring current via the parts 1, 2, 3, 15, 16, 20, 7, 8, 9, 10, 11, 12, 13 to Power source flows back. Before the monitoring magnet 8 is finally pulled in, all lines between 4 and the return line are checked for a possible earth fault, so that the monitoring magnet 8 can only attract when the monitoring device 12 has been operated correctly and the lines have been checked to ensure that the lines are not earthed is. Instead of two different magnets 8 and 12, a monitoring magnet with two windings can be used, one winding being represented by 8 and the other by 12. An example circuit for this is shown in Figs. 2 to 6.

Fig. 2 shows the idle state of the device, the monitoring current being conducted via a contact 81 on the attracted monitoring magnet, which has the two windings 8 ^a and 8 ⁶ . This monitoring current flows simultaneously through the two windings mentioned. After turning the lever, the control current flows, similar to that shown in Fig. 1, via line 15, motor 18, line 19 to earth. After the motor has stopped, the actuating current flows back to the power source via the spring switch contact 26, winding 8 °, fuse 11, line 19, as shown in Fig. 3. The winding 8 * does not yet receive current. The monitoring magnet is now designed in such a way that the winding, 8 ° ^fi o, only allows the armature to be partially attracted, to the extent that the spring-I switch is released. The contact 81, which is only to be actuated in the end position of the armature, is therefore not yet influenced by this tightening of the armature. By turning the switch, however, the contacts 26 and 13 are turned over, so that now a circuit, as shown in Fig. 4, is created. Here, the second winding 8 ^{b of} the monitoring magnet receives current, so that the armature is now completely attracted and the contact 81 is also turned over. As a result, the circuit shown in Fig. 4 is interrupted again, and a circuit according to Fig. 5 is now established, with both windings 8 ^a and 8 ^b having current, the monitoring device is therefore again in the end position shown in Fig. 2 in the mirror image is located. In order to ensure that the monitoring magnet is only partially attracted by one winding through both windings, it is advisable to connect a lock in the middle position of the armature. How this can be achieved is shown in Fig. 6. The armature 27 of the monitoring magnet 8 °, S ^b can, when 8 ^a receives current, only execute a partial movement, since it is prevented from further movement by the lock 28. However, the brief movement of the armature is sufficient to release the spring switch 30 held by the stop 29 so that it is pulled to the left by the spring 31. Here, the switch contacts 2, 26 and 13 are turned over by the lever 32 connected to the switch. This happens in the first part of the movement of the sprinkler switch. With the further movement of the spring switch, the lock 28 connected to it is shifted so far to the left that the armature 27 could now be fully tightened. However, it has fallen off again, since the winding 8? 105 has become de-energized again, i.e. the transition from the switching state according to Fig. 3 to that according to Fig. 4 has been completed. But now winding 8 * receives current, so that now the armature is tightened again and can completely reach the end position, since the lock 28 has been removed. In this end position, contact 81 is closed, so that now both windings 8 "and * on the obtained 8 in Fig. 5 path represented current. Should the armature 27 after the initial tightening by the coil 8 ^a any reason" not fall off again, so it is inevitably pushed off by the extension 28 ″ of the lock 28.

The device can also be made so that the removal of the lock 28

not done directly by the jump switch, but by one between the two switched on delay device, z. B. such that an air buffer through the spring switch is released, which removes the lock 28 at the end of its slowed movement.

Claims (5)

Patent claims: i. Circuit for point machines according to patent 487185, with all actuating and Monitoring lines via a common monitoring device to the return pole of the monitoring battery are connected, characterized in that the common monitoring device (11) is supplemented by the coil (12) of a test magnet, and that the monitoring symbol only appears after the proper insulation condition has been established by the test magnet the lines not in the monitoring circuit have also been checked. 2. Circuit according to claim 1, characterized in that the monitoring magnet (8) actuates the spring switch (9) by briefly pulling it, thereby removing itself from the power source switches off, with the spring switch (9) simultaneously closing the circuit via the coil (12), through which a circuit for the monitoring magnet (8) is now again established. 3. A circuit according to claim i, characterized in that the monitoring ^{magnet receives two windings (8 e} , 8 *), one of which is arranged as a test magnet winding (8 *) in the line to the return pole of the monitoring battery. 4. Circuit according to claim 1 to 3, characterized in that a lock (28) is provided, which is only eliminated after actuating the 4S switch (30) will. 5. Circuit according to claim 4, characterized by the arrangement of a delay device, which takes place under the action of the spring (31) Elimination of the lock (28) delayed. 1 sheet of drawings